EU-Rotate_N - a decision support system - to predict environmental and economic consequences of the management of nitrogen fertiliser in crop rotations

C.R. Rahn; K. Zhang; R. Lillywhite; C. Ramos; J. Doltra; J.M. De Pas; H. Riley; M. Fink; C. Nendel; Kristian Thorup-Kristensen; Anders Pedersen; F. Piro; A. Venezia; C. Firth; U. Schmutz; F. Rayns; K. Strohmeyer

EU-Rotate_N - a decision support system - to predict environmental and economic consequences of the management of nitrogen fertiliser in crop rotations

C.R. Rahn, K. Zhang, R. Lillywhite, C. Ramos, J. Doltra, J.M. De Pas, H. Riley, M. Fink, C. Nendel, Kristian Thorup-Kristensen, Anders Pedersen, F. Piro, A. Venezia, C. Firth, U. Schmutz, F. Rayns, K. Strohmeyer

54 Citations (Scopus)

Abstract

A model has been developed which assesses the economic and environmental performance of crop rotations, in both conventional and organic cropping, for over 70 arable and horticultural crops, and a wide range of growing conditions in Europe. The model, though originally based on the N_ABLE model, has been completely rewritten and contains new routines to simulate root development, the mineralisation and release of nitrogen (N) from soil organic matter and crop residues, and water dynamics in soil. New routines have been added to estimate the effects of sub-optimal rates of N and spacing on the marketable outputs and gross margins. The model provides a mechanism for generating scenarios to represent a range of differing crop and fertiliser management strategies which can be used to evaluate their effects on yield, gross margin and losses of nitrogen through leaching. Such testing has revealed that nitrogen management can be improved and that there is potential to increase gross margins whilst reducing nitrogen losses.

Original language	English
Journal	European Journal of Horticultural Science
Volume	75
Issue number	1
Pages (from-to)	20-32
Number of pages	13
ISSN	1611-4426
Publication status	Published - 2010
Externally published	Yes

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Rahn, C. R., Zhang, K., Lillywhite, R., Ramos, C., Doltra, J., De Pas, J. M., Riley, H., Fink, M., Nendel, C., Thorup-Kristensen, K., Pedersen, A., Piro, F., Venezia, A., Firth, C., Schmutz, U., Rayns, F., & Strohmeyer, K. (2010). EU-Rotate_N - a decision support system - to predict environmental and economic consequences of the management of nitrogen fertiliser in crop rotations. European Journal of Horticultural Science, 75(1), 20-32.

Rahn, CR, Zhang, K, Lillywhite, R, Ramos, C, Doltra, J, De Pas, JM, Riley, H, Fink, M, Nendel, C, Thorup-Kristensen, K, Pedersen, A, Piro, F, Venezia, A, Firth, C, Schmutz, U, Rayns, F & Strohmeyer, K 2010, 'EU-Rotate_N - a decision support system - to predict environmental and economic consequences of the management of nitrogen fertiliser in crop rotations', European Journal of Horticultural Science, vol. 75, no. 1, pp. 20-32.

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title = "EU-Rotate_N - a decision support system - to predict environmental and economic consequences of the management of nitrogen fertiliser in crop rotations",

abstract = "A model has been developed which assesses the economic and environmental performance of crop rotations, in both conventional and organic cropping, for over 70 arable and horticultural crops, and a wide range of growing conditions in Europe. The model, though originally based on the N_ABLE model, has been completely rewritten and contains new routines to simulate root development, the mineralisation and release of nitrogen (N) from soil organic matter and crop residues, and water dynamics in soil. New routines have been added to estimate the effects of sub-optimal rates of N and spacing on the marketable outputs and gross margins. The model provides a mechanism for generating scenarios to represent a range of differing crop and fertiliser management strategies which can be used to evaluate their effects on yield, gross margin and losses of nitrogen through leaching. Such testing has revealed that nitrogen management can be improved and that there is potential to increase gross margins whilst reducing nitrogen losses.",

author = "C.R. Rahn and K. Zhang and R. Lillywhite and C. Ramos and J. Doltra and {De Pas}, J.M. and H. Riley and M. Fink and C. Nendel and Kristian Thorup-Kristensen and Anders Pedersen and F. Piro and A. Venezia and C. Firth and U. Schmutz and F. Rayns and K. Strohmeyer",

year = "2010",

language = "English",

volume = "75",

pages = "20--32",

journal = "European Journal of Horticultural Science",

issn = "1611-4426",

publisher = "International Society for Horticultural Science (ISHS)",

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T1 - EU-Rotate_N - a decision support system - to predict environmental and economic consequences of the management of nitrogen fertiliser in crop rotations

AU - Rahn, C.R.

AU - Zhang, K.

AU - Lillywhite, R.

AU - Ramos, C.

AU - Doltra, J.

AU - De Pas, J.M.

AU - Riley, H.

AU - Fink, M.

AU - Nendel, C.

AU - Thorup-Kristensen, Kristian

AU - Pedersen, Anders

AU - Piro, F.

AU - Venezia, A.

AU - Firth, C.

AU - Schmutz, U.

AU - Rayns, F.

AU - Strohmeyer, K.

PY - 2010

Y1 - 2010

N2 - A model has been developed which assesses the economic and environmental performance of crop rotations, in both conventional and organic cropping, for over 70 arable and horticultural crops, and a wide range of growing conditions in Europe. The model, though originally based on the N_ABLE model, has been completely rewritten and contains new routines to simulate root development, the mineralisation and release of nitrogen (N) from soil organic matter and crop residues, and water dynamics in soil. New routines have been added to estimate the effects of sub-optimal rates of N and spacing on the marketable outputs and gross margins. The model provides a mechanism for generating scenarios to represent a range of differing crop and fertiliser management strategies which can be used to evaluate their effects on yield, gross margin and losses of nitrogen through leaching. Such testing has revealed that nitrogen management can be improved and that there is potential to increase gross margins whilst reducing nitrogen losses.

AB - A model has been developed which assesses the economic and environmental performance of crop rotations, in both conventional and organic cropping, for over 70 arable and horticultural crops, and a wide range of growing conditions in Europe. The model, though originally based on the N_ABLE model, has been completely rewritten and contains new routines to simulate root development, the mineralisation and release of nitrogen (N) from soil organic matter and crop residues, and water dynamics in soil. New routines have been added to estimate the effects of sub-optimal rates of N and spacing on the marketable outputs and gross margins. The model provides a mechanism for generating scenarios to represent a range of differing crop and fertiliser management strategies which can be used to evaluate their effects on yield, gross margin and losses of nitrogen through leaching. Such testing has revealed that nitrogen management can be improved and that there is potential to increase gross margins whilst reducing nitrogen losses.

M3 - Journal article

SN - 1611-4426

VL - 75

SP - 20

EP - 32

JO - European Journal of Horticultural Science

JF - European Journal of Horticultural Science

IS - 1

ER -

EU-Rotate_N - a decision support system - to predict environmental and economic consequences of the management of nitrogen fertiliser in crop rotations

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